qualcomm

Posted on by Jean-Luc Aufranc (CNXSoft) - 1 Comment on Lantronix Open-Q 2210RB and 4210RB SiPs for robotics power RB1/RB2 development kit

Lantronix Open-Q 2210RB and 4210RB SiPs for robotics power RB1/RB2 development kit

Open-Q RB1 RB2 Development Kit with Qualcomm QRB2210 or QRB4210

What comes after Qualcomm Robotics RB3, RB5, and RB6 platforms? Apparently, it’s Qualcomm Robotics RB1 and RB2 platforms powered by Qualcomm QRB2210 and Qualcomm QRB4210 processors respectively and optimized for cheaper, smaller robots with lower power consumption. But Qualcomm is one of the lamest companies known to man, so they did not include any photos when announcing the Robotics RB1 and RB2 platforms, so I’ll focus this post on Lantronix Open-Q 2210RB and 4210RB system-in-packages (SiP) based on the same processors, as well as the Open-Q RB1/RB2 development kit. Open-Q 2210RB and 4210RB SiP The new system-in-packages are very similar to the earlier Open-Q 2290CS and 4290CS SIPs for industrial IoT and machine vision applications, with the only difference being the Qualcomm processor used, so I invite you to read the earlier post for the full details, and I’ll just provide summaries here. Open-Q 2210RB key features: SoC – Qualcomm […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 7 Comments on Linux 6.2 release – Main changes, Arm, RISC-V, and MIPS architectures

Linux 6.2 release – Main changes, Arm, RISC-V, and MIPS architectures

Linux 6.2 release

Linux 6.2 has just been released with Linus Torvalds making the announcement on LKML as usual: So here we are, right on (the extended) schedule, with 6.2 out. Nothing unexpected happened last week, with just a random selection of small fixes spread all over, with nothing really standing out. The shortlog is tiny and appended below, you can scroll through it if you’re bored. Wed have a couple of small things that Thorsten was tracking on the regression side, but I wasn’t going to apply any last-minute patches that weren’t actively pushed by maintainers, so they will have to show up for stable. Nothing seemed even remotely worth trying to delay things for. And this obviously means that the 6.3 merge window will open tomorrow, and I already have 30+ pull requests queued up, which I really appreciate. I like how people have started to take the whole “ready for […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Snapdragon X75 modem brings 5G Advanced to smartphones, IoT, and FWA routers

Snapdragon X75 modem brings 5G Advanced to smartphones, IoT, and FWA routers

Snapdragon X75 5G Advanced modem

Qualcomm Snapdragon X75 is the latest 5G Modem-RF System from the company bringing 5G Advanced connectivity to smartphones, PCs, industrial IoT, vehicles, and 5G Fixed Wireless Access (FWA) routers. 5G is getting more confusing than ever, as after just having launched a 5G NR-Light modem for smartwatches, industrial IoT, and XR glasses, Qualcomm introduced the first “5G Advanced” modem with the Snapdragon X75 targetting a wide range of applications that benefit from the improvements in speed, coverage, mobility, power efficiency, etc… made possible by the 5G NR Release 18. Snapdragon X75 key features and specifications: Cellular Technology –  5G NR, LTE, LAA, WCDMA, TD-SCDMA, GSM/ Edge, CBRS, Dynamic Spectrum Sharing (DSS), EN-DC, NR-DC, mmWave, sub-6 GHz 5G Spectrum – mmWave-sub6 aggregation, sub-6 carrier aggregation (FDD-TDD, FDD-FDD, TDD-TDD), FDD-TDD support for uplink-CA, Dynamic Spectrum Sharing (DSS) 5G Modes – FDD, TDD, SA (standalone), NSA (non-standalone) Up to 10CC aggregation in mmWave, […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Qualcomm Snapdragon X35 modem to bring 5G NR-Light to smartwatches, industrial IoT, XR glasses

Qualcomm Snapdragon X35 modem to bring 5G NR-Light to smartwatches, industrial IoT, XR glasses

Snapdragon X35 5G NR-Light chip

Only a few years ago, 5G was only found in premium smartphones, but with the launch of the Snapdragon X35, Qualcomm aims to bring 5G cellular connectivity to wearables, industrial IoT applications, and eXtended Reality (XR) glasses. The Snapdragon X35 specifically supports 5G NR-Light, aka RedCap, which is described as ” a new class of 5G” that “fills the gap in between high-speed mobile broadband devices and extremely low-bandwidth NB-IoT devices” and delivers link rates of up to 220 Mbps. Snapdragon X35 modem key features and specifications: Cellular Technology: 5G NR-Light, FDD, SA (standalone), TDD, sub-6 GHz, HD-FDD, LTE Multi-Mode NR – Sub-6 SA, LTE Cat 4 3GPP Release 17 “RedCap” modem Number of Antennas: 1 Tx antenna, 2 Rx antennas Cellular Modem-RF Specs: 20 MHz bandwidth (sub-6 GHz), 1RX/2RX, 1TX, and Half-Duplex FDD (HD-FDD) Calling Services: VoLTE, VoNR Peak Upload QAM – 64 QAM Peak Upload Speed: 100 Mbps […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 1 Comment on Qualcomm-based Open-Q 2290CS and 4290CS SIPs target industrial IoT and machine vision applications

Qualcomm-based Open-Q 2290CS and 4290CS SIPs target industrial IoT and machine vision applications

Open-Q AL2 96Boards SBC and Mezzanine with Camera, Display, sensors

Lantronix has just unveiled two new System-in-Packages (SiP) with the entry-level Open-Q 2290CS SIP based on Qualcomm QCS2290 quad-core Cortex-A53 processor designed for industrial IoT applications and safety vehicle equipment control, and the pin-compatible, mid-range Open-Q 4290CS SIP based on Qualcomm QCS4290 octa-core Kryo 260 CPU for applications requiring artificial intelligence and machine learning capabilities. The Open-Q 2290CS module comes with 2GB LPDDR4, 16GB eMMC flash, WiFi 5 and Bluetooth 5.0 connectivity, while the Open-Q 4290CS module is equipped with up to 6GB LPDDR4, up to 256GB eMMC flash., and Wi-Fi 5 with some Wi-Fi 6 features (TWT & 8SS), and Bluetooth 5.1. Lantronix also offers the Open-Q AL2 development kit supporting either both SIP modules for evaluation and rapid prototyping. Open-Q 2290CS – Qualcomm QCS2290 SiP Specifications: SoC – Qualcomm QCS2290 quad-core Cortex-A53 processor at up to 2.0 GHz with Adreno 702 GPU at 845 MHz with support for […]

Posted on by Sponsored Post - 5 Comments on Arylic B50 – A Qualcomm QCC3040 based Bluetooth stereo amplifier with audio transmitter (Sponsored)

Arylic B50 – A Qualcomm QCC3040 based Bluetooth stereo amplifier with audio transmitter (Sponsored)

Arylic B50 Bluetooth Stereo Amplifier

Arylic B50 is a Bluetooth 5.2 stereo amplifier with an audio transmitter based on Qualcomm QCC3040 low-power Bluetooth Audio SoC that’s typically used in wireless earbuds. The all-in-one Bluetooth amplifier supports aptX HD audio transmission and reception, can handle two Bluetooth sources or two Bluetooth speakers or earbuds, and offers a wide range of interfaces including HDMI ARC, Phono in, RCA in, optical S/PDIF in, subwoofer out, and more. The system can also be connected to two wired speakers up to 50W @ 4 Ohms. Arylic B50 specifications: SoC – Qualcomm QCC3040 with 32-bit application processor @ 32 MHz, 32-bit system processor @ 32 MHz, Kalimba DSP @ 120 MHz, Bluetooth 5.2 and aptX HD support. Bluetooth Version 5.2 with up to 15m range Transmit – 2x Bluetooth Tx for up to 2 Bluetooth speakers or earbuds Receiver – 2x Bluetooth Rx for up to 2 Bluetooth transmitter devices Supported […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 4 Comments on Sub-$5 Cavli C16QS CAT1.bis cellular IoT module features Qualcomm QCX216 modem

Sub-$5 Cavli C16QS CAT1.bis cellular IoT module features Qualcomm QCX216 modem

Cavli C16QS Cat 1.bis module

Qualcomm QCX216 LTE IoT modem was announced at the end of last year as one of the first solutions supporting the new CAT1.bis standard enabling smaller, simpler, and cheaper modules with a single antenna design. This chip also integrates a WiFi scanner exclusively used for indoor positioning. Cavli Wireless C16QS CAT1.bis is one of the first cellular IoT modules based on the Qualcomm QCX216, and we now have a clearer idea of what “cheaper” means since the company says it will sell those for less than $5 to OEMs, although that price is likely in very high quantities, possibly 100k+ or one million pieces. Cavli C16QS specifications: Wireless IC – Qualcomm QCX216 with dual-core Cortex-M3 @ 204 MHz, cellular modem-RF Storage – 4 MB Cellular connectivity LTE CAT 1.bis based on 3GPP Release 14 Peak speeds – 10Mbps (DL), 5Mbps (UL) Bands EMEA: B1/B3/B5/B8/B20 North America : B2/B4/B12/B13/B66/B71 Integrated eSIM […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 9 Comments on Qualcomm Snapdragon Satellite enables two-way messaging using the Iridium network

Qualcomm Snapdragon Satellite enables two-way messaging using the Iridium network

Snapdragon Satellite

You may soon be able to get true global coverage even in remote areas thanks to Qualcomm Snapdragon Satellite which will offer pole-to-pole coverage and two-way messaging for emergency use, SMS texting, and other messaging applications. Qualcomm made this possible through a partnership with Iridium to bring satellite-based connectivity to next-generation premium Android smartphones starting with devices based on Snapdragon 8 Gen 2 Mobile Platform, while emergency messaging support was done in collaboration with Garmin. You’ll just need to point your phone to the sky to send and/or receive messages, and the connection should take place within a few seconds. Note it can only be used for text, and the bandwitdh would not be sufficient for audio, pictures, and videos. The solution relies on Snapdragon 5G Modem-RF Systems such as the Snapdragon X70 modem to connect to the Iridium low-earth orbit satellite constellation using the L-band spectrum (1 to 2 […]